Ramsden D A, Baetz K, Wu G E
Department of Immunology, University of Toronto, Ontario, Canada.
Nucleic Acids Res. 1994 May 25;22(10):1785-96. doi: 10.1093/nar/22.10.1785.
The variable domains of immunoglobulins and T cell receptors are assembled through the somatic, site specific recombination of multiple germline segments (V, D, and J segments) or V(D)J rearrangement. The recombination signal sequence (RSS) is necessary and sufficient for cell type specific targeting of the V(D)J rearrangement machinery to these germline segments. Previously, the RSS has been described as possessing both a conserved heptamer and a conserved nonamer motif. The heptamer and nonamer motifs are separated by a 'spacer' that was not thought to possess significant sequence conservation, however the length of the spacer could be either 12 +/- 1 bp or 23 +/- 1 bp long. In this report we have assembled and analyzed an extensive data base of published RSS. We have derived, through extensive consensus comparison, a more detailed description of the RSS than has previously been reported. Our analysis indicates that RSS spacers possess significant conservation of sequence, and that the conserved sequence in 12 bp spacers is similar to the conserved sequence in the first half of 23 bp spacers.
免疫球蛋白和T细胞受体的可变结构域是通过多个种系基因片段(V、D和J片段)的体细胞特异性重组或V(D)J重排组装而成的。重组信号序列(RSS)对于V(D)J重排机制在细胞类型特异性上靶向这些种系基因片段是必要且充分的。此前,RSS被描述为具有一个保守的七聚体和一个保守的九聚体基序。七聚体和九聚体基序被一个“间隔区”隔开,该间隔区被认为不具有显著的序列保守性,然而间隔区的长度可以是12±1 bp或23±1 bp。在本报告中,我们收集并分析了一个关于已发表RSS的广泛数据库。通过广泛的一致性比较,我们得出了比之前报道更详细的RSS描述。我们的分析表明,RSS间隔区具有显著的序列保守性,并且12 bp间隔区中的保守序列与23 bp间隔区前半部分的保守序列相似。